Coexistence of Superconductivity and Antiferromagnetism in Multilayered High-Tc Superconductor HgBa2Ca4Cu5Oy: A Cu-NMR Study

Abstract

We report a coexistence of superconductivity and antiferromagnetism in five-layered compound HgBa2Ca4Cu5Oy (Hg-1245) with Tc=108 K, which is composed of two types of CuO2 planes in a unit cell; three inner planes (IP's) and two outer planes (OP's). The Cu-NMR study has revealed that the optimallydoped OP undergoes a superconducting (SC) transition at Tc=108 K, whereas the three underdoped IP's do an antiferromagnetic (AF) transition below TN 60 K with the Cu moments of (0.3-0.4)μB. Thus bulk superconductivity with a high value of Tc=108 K and a static AF ordering at TN=60 K are realized in the alternating AF and SC layers. The AF-spin polarization at the IP is found to induce the Cu moments of 0.02μB at the SC OP, which is the AF proximity effect into the SC OP.

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